1 Answer

Alankrit · Answer 1 · 2023-05-12T22:58:51+0000

We are given that a pile of sand has the shape of a cone. The volume is given by:

$V=(1)/(3)\pi r^2h$

Where:

$\begin{gathered} r=\text{ radius} \\ h=\text{ height} \end{gathered}$

We are given that the height is 1/4 of the radius. Therefore, we have:

Now, we substitute in the formula for the volume:

$V=(1)/(3)\pi r^2((1)/(4)r)$

Now, we solve the products:

$V=(1)/(12)\pi r^3$

Now, we substitute the value of the radius:

$V=(1)/(12)\pi(12m)^3$

Now, we solve the operations:

Therefore, the volume is 452.39 cubic meters.

To determine ther rate of change of volume is determined by determining the derivative on both sides of the formula for the volume:

$(dV)/(dt)=(1)/(12)\pi(d)/(dt)(r^3)$

Now, we determine the derivative using the following formula:

$(d)/(dx)(f(x))^n=n(f(x))^(n-1)f^(\prime)(x)$

Applying the rule we get:

$(dV)/(dt)=(1)/(12)\pi3r^2(dr)/(dt)$

Simplifyiong we get:

$(dV)/(dt)=(1)/(4)\pi r^2(dr)/(dt)$

Now, we substitute the values:

$(dV)/(dt)=(1)/(4)\pi(12m)^2(4\text{ m/h\rparen}$

Solving the operations:

Therefore, the rate of change is 452.39 cubic meters per second.

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